Long-lived atoms can help to solve secrets of the universe but they can benefit in the research of nanotechnology

 

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The artist's impression of the surface of Pluto. There is the possibility that many secrets of the solar system are stored in the dwarf planets in the Kuiper Belt.

 

Long-lived atoms can help to solve secrets of the universe but they can benefit in the research of nanotechnology

 

The extinct atoms can reveal the secret of the solar system. And the thing is that the longest living atoms in our solar system might found in the Kuiper Belt. There is still one little possibility that the meteorite that has hit on the ground or sea just before the first cells were formed, and then the water along with remains of those molecular organisms could fly to space inside the debris, and the remains of those molecules would remain in the pockets of stone, what could store them to extremely low temperature if the bite of rock would fly to the outer solar system. And that thing can give an advantage for nanotechnology. 

The extremely stable atoms can store data like qubits. That data can solve things like where our solar system was born, where the sun was born, and maybe where life came, or why the conditions on our planet were suitable for forming the lifeforms like humans. Those extremely stable atoms can found inside the particles of the Kuiper Belt and other kinds of extremely cold places, where the chemical conditions are extremely stable.

In places where the temperature is near zero-kelvin the electromagnetic resonance is very weak, and also the radioactive splitting is weakest as possible. And there is the possibility that the gases from the original place of our solar system are stored in the small bubbles in those icy objects. The place where the solar system was born could locate by using the spectrometer. First, the spectrometer or spectroscope would take the chemical signature of the stored gas, and then it would compile with the other stars. And if there is a similarity, that means that the other star is born in the same cosmic nebula as our sun.

But the thing is that if the gases from the young solar system would found, there is little possibility that the asteroid contains water from the primeval sea is stored in that asteroid. That thing means that there is a possibility to find the first self-replicate molecules, which made the first prokaryotes possible. The first cells did not produce their energy and before mitochondria were formed cells took their energy from the outer sources. And that means that the self-replicant molecules are interesting people, who are working with nanotechnology.

From the outer solar system can be found the evidence, what kind of molecules were the first autonomously replicating amino-acids. And that thing can make the revolution for nano-and biotechnology. The first procaryotes can make it possible to create genetically engineered cells, which can be controlled very easily. If the cells are getting their energy from outside without mitochondria, that allows making the cell, what is producing things like fiber, only when the controller wants.

The problem with genetically manipulated cells is that nothing can control them. But if the cell is using an outer energy source, that makes it easier to control those cells. Living organisms can use to make things like extremely strong fibers, but the problem is, how to control those cells? If they are accidentally released to nature, that thing can cause problematic situations.

Things like spider web fiber are planned to make by using biotechnology. In that kind of technology, the bacteria are equipped with genomes, which are making them produce the fiber. But the problem is, what if that kind of bacteria is released to nature? If the bacteria would need outcoming energy, that thing makes them easier to control. But what if the molecule can make autonomous self-replication without the need to create a cell membrane? That thing allows making the new type of nanosized structures. 

https://phys.org/news/2021-03-extinct-atom-reveals-long-kept-secrets.html

Image: https://cdn.eso.org/images/thumb700x/eso0908a.jpg